/*
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at

    http://www.apache.org/licenses/LICENSE-2.0

Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/

package controllers

import (
	"context"
	"errors"
	"fmt"
	"reflect"
	"runtime/debug"
	"sort"
	"strconv"
	"strings"
	"time"

	"github.com/google/go-cmp/cmp"
	"github.com/google/go-cmp/cmp/cmpopts"
	log "github.com/sirupsen/logrus"
	corev1 "k8s.io/api/core/v1"
	apierrors "k8s.io/apimachinery/pkg/api/errors"
	metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
	"k8s.io/apimachinery/pkg/runtime"
	"k8s.io/apimachinery/pkg/types"
	"k8s.io/apimachinery/pkg/util/intstr"
	"k8s.io/client-go/kubernetes"
	"k8s.io/client-go/tools/record"
	"k8s.io/client-go/util/retry"
	"k8s.io/utils/ptr"
	ctrl "sigs.k8s.io/controller-runtime"
	"sigs.k8s.io/controller-runtime/pkg/builder"
	"sigs.k8s.io/controller-runtime/pkg/client"
	"sigs.k8s.io/controller-runtime/pkg/controller"
	"sigs.k8s.io/controller-runtime/pkg/controller/controllerutil"
	"sigs.k8s.io/controller-runtime/pkg/event"
	"sigs.k8s.io/controller-runtime/pkg/handler"
	"sigs.k8s.io/controller-runtime/pkg/predicate"

	"github.com/argoproj/gitops-engine/pkg/health"

	"github.com/argoproj/argo-cd/v3/applicationset/controllers/template"
	"github.com/argoproj/argo-cd/v3/applicationset/generators"
	"github.com/argoproj/argo-cd/v3/applicationset/metrics"
	"github.com/argoproj/argo-cd/v3/applicationset/status"
	"github.com/argoproj/argo-cd/v3/applicationset/utils"
	"github.com/argoproj/argo-cd/v3/common"
	applog "github.com/argoproj/argo-cd/v3/util/app/log"
	"github.com/argoproj/argo-cd/v3/util/db"

	argov1alpha1 "github.com/argoproj/argo-cd/v3/pkg/apis/application/v1alpha1"
	argoutil "github.com/argoproj/argo-cd/v3/util/argo"
	"github.com/argoproj/argo-cd/v3/util/argo/normalizers"

	"github.com/argoproj/argo-cd/v3/pkg/apis/application"
)

const (
	// Rather than importing the whole argocd-notifications controller, just copying the const here
	//   https://github.com/argoproj-labs/argocd-notifications/blob/33d345fa838829bb50fca5c08523aba380d2c12b/pkg/controller/subscriptions.go#L12
	//   https://github.com/argoproj-labs/argocd-notifications/blob/33d345fa838829bb50fca5c08523aba380d2c12b/pkg/controller/state.go#L17
	NotifiedAnnotationKey             = "notified.notifications.argoproj.io"
	ReconcileRequeueOnValidationError = time.Minute * 3
	ReverseDeletionOrder              = "Reverse"
	AllAtOnceDeletionOrder            = "AllAtOnce"
)

var defaultPreservedAnnotations = []string{
	NotifiedAnnotationKey,
	argov1alpha1.AnnotationKeyRefresh,
}

type deleteInOrder struct {
	AppName string
	Step    int
}

// ApplicationSetReconciler reconciles a ApplicationSet object
type ApplicationSetReconciler struct {
	client.Client
	Scheme               *runtime.Scheme
	Recorder             record.EventRecorder
	Generators           map[string]generators.Generator
	ArgoDB               db.ArgoDB
	KubeClientset        kubernetes.Interface
	Policy               argov1alpha1.ApplicationsSyncPolicy
	EnablePolicyOverride bool
	utils.Renderer
	ArgoCDNamespace            string
	ApplicationSetNamespaces   []string
	EnableProgressiveSyncs     bool
	SCMRootCAPath              string
	GlobalPreservedAnnotations []string
	GlobalPreservedLabels      []string
	Metrics                    *metrics.ApplicationsetMetrics
	MaxResourcesStatusCount    int
}

// +kubebuilder:rbac:groups=argoproj.io,resources=applicationsets,verbs=get;list;watch;create;update;patch;delete
// +kubebuilder:rbac:groups=argoproj.io,resources=applicationsets/status,verbs=get;update;patch

func (r *ApplicationSetReconciler) Reconcile(ctx context.Context, req ctrl.Request) (result ctrl.Result, err error) {
	startReconcile := time.Now()
	logCtx := log.WithField("applicationset", req.NamespacedName)

	defer func() {
		if rec := recover(); rec != nil {
			logCtx.Errorf("Recovered from panic: %+v\n%s", rec, debug.Stack())
			result = ctrl.Result{}
			var ok bool
			err, ok = rec.(error)
			if !ok {
				err = fmt.Errorf("%v", r)
			}
		}
	}()

	var applicationSetInfo argov1alpha1.ApplicationSet
	parametersGenerated := false
	startTime := time.Now()
	if err := r.Get(ctx, req.NamespacedName, &applicationSetInfo); err != nil {
		if client.IgnoreNotFound(err) != nil {
			logCtx.WithError(err).Infof("unable to get ApplicationSet: '%v' ", err)
		}
		return ctrl.Result{}, client.IgnoreNotFound(err)
	}

	defer func() {
		r.Metrics.ObserveReconcile(&applicationSetInfo, time.Since(startTime))
	}()

	// Do not attempt to further reconcile the ApplicationSet if it is being deleted.
	if applicationSetInfo.DeletionTimestamp != nil {
		appsetName := applicationSetInfo.Name
		logCtx.Debugf("DeletionTimestamp is set on %s", appsetName)
		deleteAllowed := utils.DefaultPolicy(applicationSetInfo.Spec.SyncPolicy, r.Policy, r.EnablePolicyOverride).AllowDelete()
		if !deleteAllowed {
			logCtx.Debugf("ApplicationSet policy does not allow to delete")
			if err := r.removeOwnerReferencesOnDeleteAppSet(ctx, applicationSetInfo); err != nil {
				return ctrl.Result{}, err
			}
			logCtx.Debugf("ownerReferences referring %s is deleted from generated applications", appsetName)
		}
		if isProgressiveSyncDeletionOrderReversed(&applicationSetInfo) {
			logCtx.Debugf("DeletionOrder is set as Reverse on %s", appsetName)
			currentApplications, err := r.getCurrentApplications(ctx, applicationSetInfo)
			if err != nil {
				return ctrl.Result{}, err
			}
			requeueTime, err := r.performReverseDeletion(ctx, logCtx, applicationSetInfo, currentApplications)
			if err != nil {
				return ctrl.Result{}, err
			} else if requeueTime > 0 {
				return ctrl.Result{RequeueAfter: requeueTime}, err
			}
		}
		controllerutil.RemoveFinalizer(&applicationSetInfo, argov1alpha1.ResourcesFinalizerName)
		if err := r.Update(ctx, &applicationSetInfo); err != nil {
			return ctrl.Result{}, err
		}
		return ctrl.Result{}, nil
	}

	if err := r.migrateStatus(ctx, &applicationSetInfo); err != nil {
		logCtx.Errorf("failed to migrate status subresource %v", err)
		return ctrl.Result{}, err
	}

	// Log a warning if there are unrecognized generators
	_ = utils.CheckInvalidGenerators(&applicationSetInfo)
	// desiredApplications is the main list of all expected Applications from all generators in this appset.
	generatedApplications, applicationSetReason, err := template.GenerateApplications(logCtx, applicationSetInfo, r.Generators, r.Renderer, r.Client)
	if err != nil {
		logCtx.Errorf("unable to generate applications: %v", err)
		_ = r.setApplicationSetStatusCondition(ctx,
			&applicationSetInfo,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
				Message: err.Error(),
				Reason:  string(applicationSetReason),
				Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
			}, parametersGenerated,
		)
		// In order for the controller SDK to respect RequeueAfter, the error must be nil
		return ctrl.Result{RequeueAfter: ReconcileRequeueOnValidationError}, nil
	}

	parametersGenerated = true

	validateErrors, err := r.validateGeneratedApplications(ctx, generatedApplications, applicationSetInfo)
	if err != nil {
		// While some generators may return an error that requires user intervention,
		// other generators reference external resources that may change to cause
		// the error to no longer occur. We thus log the error and requeue
		// with a timeout to give this another shot at a later time.
		//
		// Changes to watched resources will cause this to be reconciled sooner than
		// the RequeueAfter time.
		logCtx.Errorf("error occurred during application validation: %s", err.Error())

		_ = r.setApplicationSetStatusCondition(ctx,
			&applicationSetInfo,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
				Message: err.Error(),
				Reason:  argov1alpha1.ApplicationSetReasonApplicationValidationError,
				Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
			}, parametersGenerated,
		)
		return ctrl.Result{RequeueAfter: ReconcileRequeueOnValidationError}, nil
	}

	currentApplications, err := r.getCurrentApplications(ctx, applicationSetInfo)
	if err != nil {
		return ctrl.Result{}, fmt.Errorf("failed to get current applications for application set: %w", err)
	}

	err = r.updateResourcesStatus(ctx, logCtx, &applicationSetInfo, currentApplications)
	if err != nil {
		return ctrl.Result{}, fmt.Errorf("failed to get update resources status for application set: %w", err)
	}

	// appSyncMap tracks which apps will be synced during this reconciliation.
	appSyncMap := map[string]bool{}

	if r.EnableProgressiveSyncs {
		if !isRollingSyncStrategy(&applicationSetInfo) && len(applicationSetInfo.Status.ApplicationStatus) > 0 {
			// If an appset was previously syncing with a `RollingSync` strategy but it has switched to the default strategy, clean up the progressive sync application statuses
			logCtx.Infof("Removing %v unnecessary AppStatus entries from ApplicationSet %v", len(applicationSetInfo.Status.ApplicationStatus), applicationSetInfo.Name)

			err := r.setAppSetApplicationStatus(ctx, logCtx, &applicationSetInfo, []argov1alpha1.ApplicationSetApplicationStatus{})
			if err != nil {
				return ctrl.Result{}, fmt.Errorf("failed to clear previous AppSet application statuses for %v: %w", applicationSetInfo.Name, err)
			}
		} else if isRollingSyncStrategy(&applicationSetInfo) {
			appSyncMap, err = r.performProgressiveSyncs(ctx, logCtx, applicationSetInfo, currentApplications, generatedApplications)
			if err != nil {
				return ctrl.Result{}, fmt.Errorf("failed to perform progressive sync reconciliation for application set: %w", err)
			}
		}
	} else {
		// Progressive Sync is disabled, clear any existing applicationStatus to prevent stale data
		if len(applicationSetInfo.Status.ApplicationStatus) > 0 {
			logCtx.Infof("Progressive Sync disabled, removing %v AppStatus entries from ApplicationSet %v", len(applicationSetInfo.Status.ApplicationStatus), applicationSetInfo.Name)

			err := r.setAppSetApplicationStatus(ctx, logCtx, &applicationSetInfo, []argov1alpha1.ApplicationSetApplicationStatus{})
			if err != nil {
				return ctrl.Result{}, fmt.Errorf("failed to clear AppSet application statuses when Progressive Sync is disabled for %v: %w", applicationSetInfo.Name, err)
			}
		}
	}

	if len(validateErrors) > 0 {
		errorApps := make([]string, 0, len(validateErrors))
		for key := range validateErrors {
			errorApps = append(errorApps, key)
		}
		sort.Strings(errorApps)

		var message string
		for _, appName := range errorApps {
			message = validateErrors[appName].Error()
			logCtx.WithField("application", appName).Errorf("validation error found during application validation: %s", message)
		}
		if len(validateErrors) > 1 {
			// Only the last message gets added to the appset status, to keep the size reasonable.
			message = fmt.Sprintf("%s (and %d more)", message, len(validateErrors)-1)
		}
		_ = r.setApplicationSetStatusCondition(ctx,
			&applicationSetInfo,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
				Message: message,
				Reason:  argov1alpha1.ApplicationSetReasonApplicationValidationError,
				Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
			}, parametersGenerated,
		)
	}

	var validApps []argov1alpha1.Application
	for i := range generatedApplications {
		if validateErrors[generatedApplications[i].QualifiedName()] == nil {
			validApps = append(validApps, generatedApplications[i])
		}
	}

	if r.EnableProgressiveSyncs {
		// trigger appropriate application syncs if RollingSync strategy is enabled
		if progressiveSyncsRollingSyncStrategyEnabled(&applicationSetInfo) {
			validApps = r.syncDesiredApplications(logCtx, &applicationSetInfo, appSyncMap, validApps)
		}
	}

	// Sort apps by name so they are updated/created in the same order, and condition errors are the same
	sort.Slice(validApps, func(i, j int) bool {
		return validApps[i].Name < validApps[j].Name
	})

	if utils.DefaultPolicy(applicationSetInfo.Spec.SyncPolicy, r.Policy, r.EnablePolicyOverride).AllowUpdate() {
		err = r.createOrUpdateInCluster(ctx, logCtx, applicationSetInfo, validApps)
		if err != nil {
			_ = r.setApplicationSetStatusCondition(ctx,
				&applicationSetInfo,
				argov1alpha1.ApplicationSetCondition{
					Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
					Message: err.Error(),
					Reason:  argov1alpha1.ApplicationSetReasonUpdateApplicationError,
					Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
				}, parametersGenerated,
			)
			return ctrl.Result{}, err
		}
	} else {
		err = r.createInCluster(ctx, logCtx, applicationSetInfo, validApps)
		if err != nil {
			_ = r.setApplicationSetStatusCondition(ctx,
				&applicationSetInfo,
				argov1alpha1.ApplicationSetCondition{
					Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
					Message: err.Error(),
					Reason:  argov1alpha1.ApplicationSetReasonCreateApplicationError,
					Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
				}, parametersGenerated,
			)
			return ctrl.Result{}, err
		}
	}

	if utils.DefaultPolicy(applicationSetInfo.Spec.SyncPolicy, r.Policy, r.EnablePolicyOverride).AllowDelete() {
		// Delete the generatedApplications instead of the validApps because we want to be able to delete applications in error/invalid state
		err = r.deleteInCluster(ctx, logCtx, applicationSetInfo, generatedApplications)
		if err != nil {
			_ = r.setApplicationSetStatusCondition(ctx,
				&applicationSetInfo,
				argov1alpha1.ApplicationSetCondition{
					Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
					Message: err.Error(),
					Reason:  argov1alpha1.ApplicationSetReasonDeleteApplicationError,
					Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
				}, parametersGenerated,
			)
			return ctrl.Result{}, err
		}
	}

	if applicationSetInfo.RefreshRequired() {
		delete(applicationSetInfo.Annotations, common.AnnotationApplicationSetRefresh)
		err := r.Update(ctx, &applicationSetInfo)
		if err != nil {
			logCtx.Warnf("error occurred while updating ApplicationSet: %v", err)
			_ = r.setApplicationSetStatusCondition(ctx,
				&applicationSetInfo,
				argov1alpha1.ApplicationSetCondition{
					Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
					Message: err.Error(),
					Reason:  argov1alpha1.ApplicationSetReasonRefreshApplicationError,
					Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
				}, parametersGenerated,
			)
			return ctrl.Result{}, err
		}
	}

	requeueAfter := r.getMinRequeueAfter(&applicationSetInfo)

	if len(validateErrors) == 0 {
		if err := r.setApplicationSetStatusCondition(ctx,
			&applicationSetInfo,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionResourcesUpToDate,
				Message: "All applications have been generated successfully",
				Reason:  argov1alpha1.ApplicationSetReasonApplicationSetUpToDate,
				Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
			}, parametersGenerated,
		); err != nil {
			return ctrl.Result{}, err
		}
	} else if requeueAfter == time.Duration(0) {
		// Ensure that the request is requeued if there are validation errors.
		requeueAfter = ReconcileRequeueOnValidationError
	}

	logCtx.WithField("requeueAfter", requeueAfter).Info("end reconcile in ", time.Since(startReconcile))

	return ctrl.Result{
		RequeueAfter: requeueAfter,
	}, nil
}

func (r *ApplicationSetReconciler) performReverseDeletion(ctx context.Context, logCtx *log.Entry, appset argov1alpha1.ApplicationSet, currentApps []argov1alpha1.Application) (time.Duration, error) {
	requeueTime := 10 * time.Second
	stepLength := len(appset.Spec.Strategy.RollingSync.Steps)

	// map applications by name using current applications
	appMap := make(map[string]*argov1alpha1.Application)
	for _, app := range currentApps {
		appMap[app.Name] = &app
	}

	// Get Rolling Sync Step Maps
	_, appStepMap := r.buildAppDependencyList(logCtx, appset, currentApps)
	// reverse the AppStepMap to perform deletion
	var reverseDeleteAppSteps []deleteInOrder
	for appName, appStep := range appStepMap {
		reverseDeleteAppSteps = append(reverseDeleteAppSteps, deleteInOrder{appName, stepLength - appStep - 1})
	}

	sort.Slice(reverseDeleteAppSteps, func(i, j int) bool {
		return reverseDeleteAppSteps[i].Step < reverseDeleteAppSteps[j].Step
	})

	for _, step := range reverseDeleteAppSteps {
		logCtx.Infof("step %v : app %v", step.Step, step.AppName)
		app := appMap[step.AppName]
		retrievedApp := argov1alpha1.Application{}
		if err := r.Get(ctx, types.NamespacedName{Name: app.Name, Namespace: app.Namespace}, &retrievedApp); err != nil {
			if apierrors.IsNotFound(err) {
				logCtx.Infof("application %s successfully deleted", step.AppName)
				continue
			}
		}
		// Check if the application is already being deleted
		if retrievedApp.DeletionTimestamp != nil {
			logCtx.Infof("application %s has been marked for deletion, but object not removed yet", step.AppName)
			if time.Since(retrievedApp.DeletionTimestamp.Time) > 2*time.Minute {
				return 0, errors.New("application has not been deleted in over 2 minutes")
			}
		}
		// The application has not been deleted yet, trigger its deletion
		if err := r.Delete(ctx, &retrievedApp); err != nil {
			return 0, err
		}
		return requeueTime, nil
	}
	logCtx.Infof("completed reverse deletion for ApplicationSet %v", appset.Name)
	return 0, nil
}

func getParametersGeneratedCondition(parametersGenerated bool, message string) argov1alpha1.ApplicationSetCondition {
	var parametersGeneratedCondition argov1alpha1.ApplicationSetCondition
	if parametersGenerated {
		parametersGeneratedCondition = argov1alpha1.ApplicationSetCondition{
			Type:    argov1alpha1.ApplicationSetConditionParametersGenerated,
			Message: "Successfully generated parameters for all Applications",
			Reason:  argov1alpha1.ApplicationSetReasonParametersGenerated,
			Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
		}
	} else {
		parametersGeneratedCondition = argov1alpha1.ApplicationSetCondition{
			Type:    argov1alpha1.ApplicationSetConditionParametersGenerated,
			Message: message,
			Reason:  argov1alpha1.ApplicationSetReasonErrorOccurred,
			Status:  argov1alpha1.ApplicationSetConditionStatusFalse,
		}
	}
	return parametersGeneratedCondition
}

func (r *ApplicationSetReconciler) setApplicationSetStatusCondition(ctx context.Context, applicationSet *argov1alpha1.ApplicationSet, condition argov1alpha1.ApplicationSetCondition, parametersGenerated bool) error {
	// Initialize the default condition types that this method evaluates
	evaluatedTypes := map[argov1alpha1.ApplicationSetConditionType]bool{
		argov1alpha1.ApplicationSetConditionParametersGenerated: true,
		argov1alpha1.ApplicationSetConditionErrorOccurred:       false,
		argov1alpha1.ApplicationSetConditionResourcesUpToDate:   false,
		argov1alpha1.ApplicationSetConditionRolloutProgressing:  false,
	}
	// Evaluate current condition
	evaluatedTypes[condition.Type] = true
	newConditions := []argov1alpha1.ApplicationSetCondition{condition}

	if !isRollingSyncStrategy(applicationSet) {
		// Progressing sync is always evaluated so conditions are removed when it is not enabled
		evaluatedTypes[argov1alpha1.ApplicationSetConditionRolloutProgressing] = true
	}

	// Evaluate ParametersGenerated since it is always provided
	if condition.Type != argov1alpha1.ApplicationSetConditionParametersGenerated {
		newConditions = append(newConditions, getParametersGeneratedCondition(parametersGenerated, condition.Message))
	}

	// Evaluate dependencies between conditions.
	switch condition.Type {
	case argov1alpha1.ApplicationSetConditionResourcesUpToDate:
		if condition.Status == argov1alpha1.ApplicationSetConditionStatusTrue {
			// If the resources are up to date, we know there was no errors
			evaluatedTypes[argov1alpha1.ApplicationSetConditionErrorOccurred] = true
			newConditions = append(newConditions, argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionErrorOccurred,
				Status:  argov1alpha1.ApplicationSetConditionStatusFalse,
				Reason:  condition.Reason,
				Message: condition.Message,
			})
		}
	case argov1alpha1.ApplicationSetConditionErrorOccurred:
		if condition.Status == argov1alpha1.ApplicationSetConditionStatusTrue {
			// If there is an error anywhere in the reconciliation, we cannot consider the resources up to date
			evaluatedTypes[argov1alpha1.ApplicationSetConditionResourcesUpToDate] = true
			newConditions = append(newConditions, argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionResourcesUpToDate,
				Status:  argov1alpha1.ApplicationSetConditionStatusFalse,
				Reason:  argov1alpha1.ApplicationSetReasonErrorOccurred,
				Message: condition.Message,
			})
		}
	case argov1alpha1.ApplicationSetConditionRolloutProgressing:
		if !isRollingSyncStrategy(applicationSet) {
			// if the condition is a rolling sync and it is disabled, ignore it
			evaluatedTypes[condition.Type] = false
		}
	}

	// Update the applicationSet conditions
	previousConditions := applicationSet.Status.Conditions
	applicationSet.Status.SetConditions(newConditions, evaluatedTypes)

	// Try to not call get/update if nothing has changed
	needToUpdateConditions := len(applicationSet.Status.Conditions) != len(previousConditions)
	if !needToUpdateConditions {
		for i, c := range applicationSet.Status.Conditions {
			previous := previousConditions[i]
			if c.Type != previous.Type || c.Reason != previous.Reason || c.Status != previous.Status || c.Message != previous.Message {
				needToUpdateConditions = true
				break
			}
		}
	}

	if !needToUpdateConditions {
		return nil
	}
	// DefaultRetry will retry 5 times with a backoff factor of 1, jitter of 0.1 and a duration of 10ms
	err := retry.RetryOnConflict(retry.DefaultRetry, func() error {
		updatedAppset := &argov1alpha1.ApplicationSet{}
		if err := r.Get(ctx, types.NamespacedName{Namespace: applicationSet.Namespace, Name: applicationSet.Name}, updatedAppset); err != nil {
			if client.IgnoreNotFound(err) != nil {
				return nil
			}
			return fmt.Errorf("error fetching updated application set: %w", err)
		}

		updatedAppset.Status.SetConditions(newConditions, evaluatedTypes)

		// Update the newly fetched object with new set of conditions
		err := r.Client.Status().Update(ctx, updatedAppset)
		if err != nil {
			return err
		}
		updatedAppset.DeepCopyInto(applicationSet)
		return nil
	})
	if err != nil && !apierrors.IsNotFound(err) {
		return fmt.Errorf("unable to set application set condition: %w", err)
	}

	return nil
}

// validateGeneratedApplications uses the Argo CD validation functions to verify the correctness of the
// generated applications.
func (r *ApplicationSetReconciler) validateGeneratedApplications(ctx context.Context, desiredApplications []argov1alpha1.Application, applicationSetInfo argov1alpha1.ApplicationSet) (map[string]error, error) {
	errorsByApp := map[string]error{}
	namesSet := map[string]bool{}
	for i := range desiredApplications {
		app := &desiredApplications[i]
		if namesSet[app.Name] {
			errorsByApp[app.QualifiedName()] = fmt.Errorf("ApplicationSet %s contains applications with duplicate name: %s", applicationSetInfo.Name, app.Name)
			continue
		}
		namesSet[app.Name] = true
		appProject := &argov1alpha1.AppProject{}
		err := r.Get(ctx, types.NamespacedName{Name: app.Spec.Project, Namespace: r.ArgoCDNamespace}, appProject)
		if err != nil {
			if apierrors.IsNotFound(err) {
				errorsByApp[app.QualifiedName()] = fmt.Errorf("application references project %s which does not exist", app.Spec.Project)
				continue
			}
			return nil, err
		}

		if _, err = argoutil.GetDestinationCluster(ctx, app.Spec.Destination, r.ArgoDB); err != nil {
			errorsByApp[app.QualifiedName()] = fmt.Errorf("application destination spec is invalid: %s", err.Error())
			continue
		}
	}

	return errorsByApp, nil
}

func (r *ApplicationSetReconciler) getMinRequeueAfter(applicationSetInfo *argov1alpha1.ApplicationSet) time.Duration {
	var res time.Duration
	for _, requestedGenerator := range applicationSetInfo.Spec.Generators {
		relevantGenerators := generators.GetRelevantGenerators(&requestedGenerator, r.Generators)

		for _, g := range relevantGenerators {
			t := g.GetRequeueAfter(&requestedGenerator)

			if res == 0 {
				res = t
			} else if t != 0 && t < res {
				res = t
			}
		}
	}

	return res
}

func ignoreNotAllowedNamespaces(namespaces []string) predicate.Predicate {
	return predicate.NewPredicateFuncs(func(object client.Object) bool {
		return utils.IsNamespaceAllowed(namespaces, object.GetNamespace())
	})
}

func appControllerIndexer(rawObj client.Object) []string {
	// grab the job object, extract the owner...
	app := rawObj.(*argov1alpha1.Application)
	owner := metav1.GetControllerOf(app)
	if owner == nil {
		return nil
	}
	// ...make sure it's a application set...
	if owner.APIVersion != argov1alpha1.SchemeGroupVersion.String() || owner.Kind != "ApplicationSet" {
		return nil
	}

	// ...and if so, return it
	return []string{owner.Name}
}

func (r *ApplicationSetReconciler) SetupWithManager(mgr ctrl.Manager, enableProgressiveSyncs bool, maxConcurrentReconciliations int) error {
	if err := mgr.GetFieldIndexer().IndexField(context.TODO(), &argov1alpha1.Application{}, ".metadata.controller", appControllerIndexer); err != nil {
		return fmt.Errorf("error setting up with manager: %w", err)
	}

	appOwnsHandler := getApplicationOwnsHandler(enableProgressiveSyncs)
	appSetOwnsHandler := getApplicationSetOwnsHandler(enableProgressiveSyncs)

	return ctrl.NewControllerManagedBy(mgr).WithOptions(controller.Options{
		MaxConcurrentReconciles: maxConcurrentReconciliations,
	}).For(&argov1alpha1.ApplicationSet{}, builder.WithPredicates(appSetOwnsHandler)).
		Owns(&argov1alpha1.Application{}, builder.WithPredicates(appOwnsHandler)).
		WithEventFilter(ignoreNotAllowedNamespaces(r.ApplicationSetNamespaces)).
		Watches(
			&corev1.Secret{},
			&clusterSecretEventHandler{
				Client: mgr.GetClient(),
				Log:    log.WithField("type", "createSecretEventHandler"),
			}).
		Complete(r)
}

// createOrUpdateInCluster will create / update application resources in the cluster.
// - For new applications, it will call create
// - For existing application, it will call update
// The function also adds owner reference to all applications, and uses it to delete them.
func (r *ApplicationSetReconciler) createOrUpdateInCluster(ctx context.Context, logCtx *log.Entry, applicationSet argov1alpha1.ApplicationSet, desiredApplications []argov1alpha1.Application) error {
	var firstError error
	// Creates or updates the application in appList
	for _, generatedApp := range desiredApplications {
		appLog := logCtx.WithFields(applog.GetAppLogFields(&generatedApp))

		// Normalize to avoid fighting with the application controller.
		generatedApp.Spec = *argoutil.NormalizeApplicationSpec(&generatedApp.Spec)

		found := &argov1alpha1.Application{
			ObjectMeta: metav1.ObjectMeta{
				Name:      generatedApp.Name,
				Namespace: generatedApp.Namespace,
			},
			TypeMeta: metav1.TypeMeta{
				Kind:       application.ApplicationKind,
				APIVersion: "argoproj.io/v1alpha1",
			},
		}

		action, err := utils.CreateOrUpdate(ctx, appLog, r.Client, applicationSet.Spec.IgnoreApplicationDifferences, normalizers.IgnoreNormalizerOpts{}, found, func() error {
			// Copy only the Application/ObjectMeta fields that are significant, from the generatedApp
			found.Spec = generatedApp.Spec

			// allow setting the Operation field to trigger a sync operation on an Application
			if generatedApp.Operation != nil {
				found.Operation = generatedApp.Operation
			}

			preservedAnnotations := make([]string, 0)
			preservedLabels := make([]string, 0)

			if applicationSet.Spec.PreservedFields != nil {
				preservedAnnotations = append(preservedAnnotations, applicationSet.Spec.PreservedFields.Annotations...)
				preservedLabels = append(preservedLabels, applicationSet.Spec.PreservedFields.Labels...)
			}

			if len(r.GlobalPreservedAnnotations) > 0 {
				preservedAnnotations = append(preservedAnnotations, r.GlobalPreservedAnnotations...)
			}

			if len(r.GlobalPreservedLabels) > 0 {
				preservedLabels = append(preservedLabels, r.GlobalPreservedLabels...)
			}

			// Preserve specially treated argo cd annotations:
			// * https://github.com/argoproj/applicationset/issues/180
			// * https://github.com/argoproj/argo-cd/issues/10500
			preservedAnnotations = append(preservedAnnotations, defaultPreservedAnnotations...)

			for _, key := range preservedAnnotations {
				if state, exists := found.Annotations[key]; exists {
					if generatedApp.Annotations == nil {
						generatedApp.Annotations = map[string]string{}
					}
					generatedApp.Annotations[key] = state
				}
			}

			for _, key := range preservedLabels {
				if state, exists := found.Labels[key]; exists {
					if generatedApp.Labels == nil {
						generatedApp.Labels = map[string]string{}
					}
					generatedApp.Labels[key] = state
				}
			}

			// Preserve post-delete finalizers:
			//   https://github.com/argoproj/argo-cd/issues/17181
			for _, finalizer := range found.Finalizers {
				if strings.HasPrefix(finalizer, argov1alpha1.PostDeleteFinalizerName) {
					if generatedApp.Finalizers == nil {
						generatedApp.Finalizers = []string{}
					}
					generatedApp.Finalizers = append(generatedApp.Finalizers, finalizer)
				}
			}

			found.Annotations = generatedApp.Annotations

			found.Finalizers = generatedApp.Finalizers
			found.Labels = generatedApp.Labels

			return controllerutil.SetControllerReference(&applicationSet, found, r.Scheme)
		})
		if err != nil {
			appLog.WithError(err).WithField("action", action).Errorf("failed to %s Application", action)
			if firstError == nil {
				firstError = err
			}
			continue
		}

		if action != controllerutil.OperationResultNone {
			// Don't pollute etcd with "unchanged Application" events
			r.Recorder.Eventf(&applicationSet, corev1.EventTypeNormal, fmt.Sprint(action), "%s Application %q", action, generatedApp.Name)
			appLog.Logf(log.InfoLevel, "%s Application", action)
		} else {
			// "unchanged Application" can be inferred by Reconcile Complete with no action being listed
			// Or enable debug logging
			appLog.Logf(log.DebugLevel, "%s Application", action)
		}
	}
	return firstError
}

// createInCluster will filter from the desiredApplications only the application that needs to be created
// Then it will call createOrUpdateInCluster to do the actual create
func (r *ApplicationSetReconciler) createInCluster(ctx context.Context, logCtx *log.Entry, applicationSet argov1alpha1.ApplicationSet, desiredApplications []argov1alpha1.Application) error {
	var createApps []argov1alpha1.Application
	current, err := r.getCurrentApplications(ctx, applicationSet)
	if err != nil {
		return fmt.Errorf("error getting current applications: %w", err)
	}

	m := make(map[string]bool) // Will holds the app names that are current in the cluster

	for _, app := range current {
		m[app.Name] = true
	}

	// filter applications that are not in m[string]bool (new to the cluster)
	for _, app := range desiredApplications {
		_, exists := m[app.Name]

		if !exists {
			createApps = append(createApps, app)
		}
	}

	return r.createOrUpdateInCluster(ctx, logCtx, applicationSet, createApps)
}

func (r *ApplicationSetReconciler) getCurrentApplications(ctx context.Context, applicationSet argov1alpha1.ApplicationSet) ([]argov1alpha1.Application, error) {
	var current argov1alpha1.ApplicationList
	err := r.List(ctx, &current, client.MatchingFields{".metadata.controller": applicationSet.Name}, client.InNamespace(applicationSet.Namespace))
	if err != nil {
		return nil, fmt.Errorf("error retrieving applications: %w", err)
	}

	return current.Items, nil
}

// deleteInCluster will delete Applications that are currently on the cluster, but not in appList.
// The function must be called after all generators had been called and generated applications
func (r *ApplicationSetReconciler) deleteInCluster(ctx context.Context, logCtx *log.Entry, applicationSet argov1alpha1.ApplicationSet, desiredApplications []argov1alpha1.Application) error {
	clusterList, err := utils.ListClusters(ctx, r.KubeClientset, r.ArgoCDNamespace)
	if err != nil {
		return fmt.Errorf("error listing clusters: %w", err)
	}

	// Save current applications to be able to delete the ones that are not in appList
	current, err := r.getCurrentApplications(ctx, applicationSet)
	if err != nil {
		return fmt.Errorf("error getting current applications: %w", err)
	}

	m := make(map[string]bool) // will hold the app names in appList for the deletion process

	for _, app := range desiredApplications {
		m[app.Name] = true
	}

	// Delete apps that are not in m[string]bool
	var firstError error
	for _, app := range current {
		logCtx = logCtx.WithFields(applog.GetAppLogFields(&app))
		_, exists := m[app.Name]

		if !exists {
			// Removes the Argo CD resources finalizer if the application contains an invalid target (eg missing cluster)
			err := r.removeFinalizerOnInvalidDestination(ctx, applicationSet, &app, clusterList, logCtx)
			if err != nil {
				logCtx.WithError(err).Error("failed to update Application")
				if firstError != nil {
					firstError = err
				}
				continue
			}

			err = r.Delete(ctx, &app)
			if err != nil {
				logCtx.WithError(err).Error("failed to delete Application")
				if firstError != nil {
					firstError = err
				}
				continue
			}
			r.Recorder.Eventf(&applicationSet, corev1.EventTypeNormal, "Deleted", "Deleted Application %q", app.Name)
			logCtx.Log(log.InfoLevel, "Deleted application")
		}
	}
	return firstError
}

// removeFinalizerOnInvalidDestination removes the Argo CD resources finalizer if the application contains an invalid target (eg missing cluster)
func (r *ApplicationSetReconciler) removeFinalizerOnInvalidDestination(ctx context.Context, applicationSet argov1alpha1.ApplicationSet, app *argov1alpha1.Application, clusterList []utils.ClusterSpecifier, appLog *log.Entry) error {
	// Only check if the finalizers need to be removed IF there are finalizers to remove
	if len(app.Finalizers) == 0 {
		return nil
	}

	var validDestination bool

	// Detect if the destination is invalid (name doesn't correspond to a matching cluster)
	if destCluster, err := argoutil.GetDestinationCluster(ctx, app.Spec.Destination, r.ArgoDB); err != nil {
		appLog.Warnf("The destination cluster for %s could not be found: %v", app.Name, err)
		validDestination = false
	} else {
		// Detect if the destination's server field does not match an existing cluster
		matchingCluster := false
		for _, cluster := range clusterList {
			if destCluster.Server != cluster.Server {
				continue
			}

			if destCluster.Name != cluster.Name {
				continue
			}

			matchingCluster = true
			break
		}

		if !matchingCluster {
			appLog.Warnf("A match for the destination cluster for %s, by server url, could not be found", app.Name)
		}

		validDestination = matchingCluster
	}
	// If the destination is invalid (for example the cluster is no longer defined), then remove
	// the application finalizers to avoid triggering Argo CD bug #5817
	if !validDestination {
		// Filter out the Argo CD finalizer from the finalizer list
		var newFinalizers []string
		for _, existingFinalizer := range app.Finalizers {
			if existingFinalizer != argov1alpha1.ResourcesFinalizerName { // only remove this one
				newFinalizers = append(newFinalizers, existingFinalizer)
			}
		}

		// If the finalizer length changed (due to filtering out an Argo finalizer), update the finalizer list on the app
		if len(newFinalizers) != len(app.Finalizers) {
			updated := app.DeepCopy()
			updated.Finalizers = newFinalizers
			patch := client.MergeFrom(app)
			if log.IsLevelEnabled(log.DebugLevel) {
				utils.LogPatch(appLog, patch, updated)
			}
			if err := r.Patch(ctx, updated, patch); err != nil {
				return fmt.Errorf("error updating finalizers: %w", err)
			}
			// Application must have updated list of finalizers
			updated.DeepCopyInto(app)

			r.Recorder.Eventf(&applicationSet, corev1.EventTypeNormal, "Updated", "Updated Application %q finalizer before deletion, because application has an invalid destination", app.Name)
			appLog.Log(log.InfoLevel, "Updating application finalizer before deletion, because application has an invalid destination")
		}
	}

	return nil
}

func (r *ApplicationSetReconciler) removeOwnerReferencesOnDeleteAppSet(ctx context.Context, applicationSet argov1alpha1.ApplicationSet) error {
	applications, err := r.getCurrentApplications(ctx, applicationSet)
	if err != nil {
		return fmt.Errorf("error getting current applications for ApplicationSet: %w", err)
	}

	for _, app := range applications {
		app.SetOwnerReferences([]metav1.OwnerReference{})
		err := r.Update(ctx, &app)
		if err != nil {
			return fmt.Errorf("error updating application: %w", err)
		}
	}

	return nil
}

func (r *ApplicationSetReconciler) performProgressiveSyncs(ctx context.Context, logCtx *log.Entry, appset argov1alpha1.ApplicationSet, applications []argov1alpha1.Application, desiredApplications []argov1alpha1.Application) (map[string]bool, error) {
	appDependencyList, appStepMap := r.buildAppDependencyList(logCtx, appset, desiredApplications)

	_, err := r.updateApplicationSetApplicationStatus(ctx, logCtx, &appset, applications, appStepMap)
	if err != nil {
		return nil, fmt.Errorf("failed to update applicationset app status: %w", err)
	}

	logCtx.Infof("ApplicationSet %v step list:", appset.Name)
	for stepIndex, applicationNames := range appDependencyList {
		logCtx.Infof("step %v: %+v", stepIndex+1, applicationNames)
	}

	appsToSync := r.getAppsToSync(appset, appDependencyList, applications)
	logCtx.Infof("Application allowed to sync before maxUpdate?: %+v", appsToSync)

	_, err = r.updateApplicationSetApplicationStatusProgress(ctx, logCtx, &appset, appsToSync, appStepMap)
	if err != nil {
		return nil, fmt.Errorf("failed to update applicationset application status progress: %w", err)
	}

	_ = r.updateApplicationSetApplicationStatusConditions(ctx, &appset)

	return appsToSync, nil
}

// this list tracks which Applications belong to each RollingUpdate step
func (r *ApplicationSetReconciler) buildAppDependencyList(logCtx *log.Entry, applicationSet argov1alpha1.ApplicationSet, applications []argov1alpha1.Application) ([][]string, map[string]int) {
	if applicationSet.Spec.Strategy == nil || applicationSet.Spec.Strategy.Type == "" || applicationSet.Spec.Strategy.Type == "AllAtOnce" {
		return [][]string{}, map[string]int{}
	}

	steps := []argov1alpha1.ApplicationSetRolloutStep{}
	if progressiveSyncsRollingSyncStrategyEnabled(&applicationSet) {
		steps = applicationSet.Spec.Strategy.RollingSync.Steps
	}

	appDependencyList := make([][]string, 0)
	for range steps {
		appDependencyList = append(appDependencyList, make([]string, 0))
	}

	appStepMap := map[string]int{}

	// use applicationLabelSelectors to filter generated Applications into steps and status by name
	for _, app := range applications {
		for i, step := range steps {
			selected := true // default to true, assuming the current Application is a match for the given step matchExpression

			for _, matchExpression := range step.MatchExpressions {
				if val, ok := app.Labels[matchExpression.Key]; ok {
					valueMatched := labelMatchedExpression(logCtx, val, matchExpression)

					if !valueMatched { // none of the matchExpression values was a match with the Application's labels
						selected = false
						break
					}
				} else if matchExpression.Operator == "In" {
					selected = false // no matching label key with "In" operator means this Application will not be included in the current step
					break
				}
			}

			if selected {
				appDependencyList[i] = append(appDependencyList[i], app.Name)
				if val, ok := appStepMap[app.Name]; ok {
					logCtx.Warnf("AppSet '%v' has a invalid matchExpression that selects Application '%v' label twice, in steps %v and %v", applicationSet.Name, app.Name, val+1, i+1)
				} else {
					appStepMap[app.Name] = i
				}
			}
		}
	}

	return appDependencyList, appStepMap
}

func labelMatchedExpression(logCtx *log.Entry, val string, matchExpression argov1alpha1.ApplicationMatchExpression) bool {
	if matchExpression.Operator != "In" && matchExpression.Operator != "NotIn" {
		logCtx.Errorf("skipping AppSet rollingUpdate step Application selection, invalid matchExpression operator provided: %q ", matchExpression.Operator)
		return false
	}

	// if operator == In, default to false
	// if operator == NotIn, default to true
	valueMatched := matchExpression.Operator == "NotIn"

	for _, value := range matchExpression.Values {
		if val == value {
			// first "In" match returns true
			// first "NotIn" match returns false
			return matchExpression.Operator == "In"
		}
	}
	return valueMatched
}

// getAppsToSync returns a Map of Applications that should be synced in this progressive sync wave
func (r *ApplicationSetReconciler) getAppsToSync(applicationSet argov1alpha1.ApplicationSet, appDependencyList [][]string, currentApplications []argov1alpha1.Application) map[string]bool {
	appSyncMap := map[string]bool{}
	currentAppsMap := map[string]bool{}

	for _, app := range currentApplications {
		currentAppsMap[app.Name] = true
	}

	for stepIndex := range appDependencyList {
		// set the syncEnabled boolean for every Application in the current step
		for _, appName := range appDependencyList[stepIndex] {
			appSyncMap[appName] = true
		}

		// evaluate if we need to sync next waves
		syncNextWave := true
		for _, appName := range appDependencyList[stepIndex] {
			// Check if application is created and managed by this AppSet, if it is not created yet, we cannot progress
			if _, ok := currentAppsMap[appName]; !ok {
				syncNextWave = false
				break
			}

			idx := findApplicationStatusIndex(applicationSet.Status.ApplicationStatus, appName)
			if idx == -1 {
				// No Application status found, likely because the Application is being newly created
				// This mean this wave is not yet completed
				syncNextWave = false
				break
			}

			appStatus := applicationSet.Status.ApplicationStatus[idx]
			if appStatus.Status != argov1alpha1.ProgressiveSyncHealthy {
				// At least one application in this wave is not yet healthy. We cannot proceed to the next wave
				syncNextWave = false
				break
			}
		}
		if !syncNextWave {
			break
		}
	}

	return appSyncMap
}

func isRollingSyncStrategy(appset *argov1alpha1.ApplicationSet) bool {
	// It's only RollingSync if the type specifically sets it
	return appset.Spec.Strategy != nil && appset.Spec.Strategy.Type == "RollingSync" && appset.Spec.Strategy.RollingSync != nil
}

func progressiveSyncsRollingSyncStrategyEnabled(appset *argov1alpha1.ApplicationSet) bool {
	// ProgressiveSync is enabled if the strategy is set to `RollingSync` + steps slice is not empty
	return isRollingSyncStrategy(appset) && len(appset.Spec.Strategy.RollingSync.Steps) > 0
}

func isApplicationWithError(app argov1alpha1.Application) bool {
	for _, condition := range app.Status.Conditions {
		if condition.Type == argov1alpha1.ApplicationConditionInvalidSpecError {
			return true
		}
		if condition.Type == argov1alpha1.ApplicationConditionUnknownError {
			return true
		}
	}
	return false
}

func isProgressiveSyncDeletionOrderReversed(appset *argov1alpha1.ApplicationSet) bool {
	// When progressive sync is enabled + deletionOrder is set to Reverse (case-insensitive)
	return progressiveSyncsRollingSyncStrategyEnabled(appset) && strings.EqualFold(appset.Spec.Strategy.DeletionOrder, ReverseDeletionOrder)
}

func getAppStep(appName string, appStepMap map[string]int) int {
	// if an application is not selected by any match expression, it defaults to step -1
	step := -1
	if appStep, ok := appStepMap[appName]; ok {
		// 1-based indexing
		step = appStep + 1
	}
	return step
}

// check the status of each Application's status and promote Applications to the next status if needed
func (r *ApplicationSetReconciler) updateApplicationSetApplicationStatus(ctx context.Context, logCtx *log.Entry, applicationSet *argov1alpha1.ApplicationSet, applications []argov1alpha1.Application, appStepMap map[string]int) ([]argov1alpha1.ApplicationSetApplicationStatus, error) {
	now := metav1.Now()
	appStatuses := make([]argov1alpha1.ApplicationSetApplicationStatus, 0, len(applications))

	for _, app := range applications {
		appHealthStatus := app.Status.Health.Status
		appSyncStatus := app.Status.Sync.Status

		currentAppStatus := argov1alpha1.ApplicationSetApplicationStatus{}
		idx := findApplicationStatusIndex(applicationSet.Status.ApplicationStatus, app.Name)
		if idx == -1 {
			// AppStatus not found, set default status of "Waiting"
			currentAppStatus = argov1alpha1.ApplicationSetApplicationStatus{
				Application:        app.Name,
				TargetRevisions:    app.Status.GetRevisions(),
				LastTransitionTime: &now,
				Message:            "No Application status found, defaulting status to Waiting",
				Status:             argov1alpha1.ProgressiveSyncWaiting,
				Step:               strconv.Itoa(getAppStep(app.Name, appStepMap)),
			}
		} else {
			// we have an existing AppStatus
			currentAppStatus = applicationSet.Status.ApplicationStatus[idx]
		}

		statusLogCtx := logCtx.WithFields(log.Fields{
			"app.name":               currentAppStatus.Application,
			"app.health":             appHealthStatus,
			"app.sync":               appSyncStatus,
			"status.status":          currentAppStatus.Status,
			"status.message":         currentAppStatus.Message,
			"status.step":            currentAppStatus.Step,
			"status.targetRevisions": strings.Join(currentAppStatus.TargetRevisions, ","),
		})

		newAppStatus := currentAppStatus.DeepCopy()
		newAppStatus.Step = strconv.Itoa(getAppStep(newAppStatus.Application, appStepMap))

		if !reflect.DeepEqual(currentAppStatus.TargetRevisions, app.Status.GetRevisions()) {
			// A new version is available in the application and we need to re-sync the application
			newAppStatus.TargetRevisions = app.Status.GetRevisions()
			newAppStatus.Message = "Application has pending changes, setting status to Waiting"
			newAppStatus.Status = argov1alpha1.ProgressiveSyncWaiting
			newAppStatus.LastTransitionTime = &now
		}

		if newAppStatus.Status == argov1alpha1.ProgressiveSyncWaiting {
			// App has changed to waiting because the TargetRevisions changed or it is a new selected app
			// This does not mean we should always sync the app. The app may not be OutOfSync
			// and may not require a sync if it does not have differences.
			if appSyncStatus == argov1alpha1.SyncStatusCodeSynced {
				if app.Status.Health.Status == health.HealthStatusHealthy {
					newAppStatus.LastTransitionTime = &now
					newAppStatus.Status = argov1alpha1.ProgressiveSyncHealthy
					newAppStatus.Message = "Application resource has synced, updating status to Healthy"
				} else {
					newAppStatus.LastTransitionTime = &now
					newAppStatus.Status = argov1alpha1.ProgressiveSyncProgressing
					newAppStatus.Message = "Application resource has synced, updating status to Progressing"
				}
			}
		} else {
			// The target revision is the same, so we need to evaluate the current revision progress
			if currentAppStatus.Status == argov1alpha1.ProgressiveSyncPending {
				// No need to evaluate status health further if the application did not change since our last transition
				if app.Status.ReconciledAt == nil || (newAppStatus.LastTransitionTime != nil && app.Status.ReconciledAt.After(newAppStatus.LastTransitionTime.Time)) {
					// Validate that at least one sync was trigerred after the pending transition time
					if app.Status.OperationState != nil && app.Status.OperationState.StartedAt.After(currentAppStatus.LastTransitionTime.Time) {
						statusLogCtx = statusLogCtx.WithField("app.operation", app.Status.OperationState.Phase)
						newAppStatus.LastTransitionTime = &now
						newAppStatus.Status = argov1alpha1.ProgressiveSyncProgressing

						switch {
						case app.Status.OperationState.Phase.Successful():
							newAppStatus.Message = "Application resource completed a sync successfully, updating status from Pending to Progressing"
						case app.Status.OperationState.Phase.Completed():
							newAppStatus.Message = "Application resource completed a sync, updating status from Pending to Progressing"
						default:
							// If a sync fails or has errors, the Application should be configured with retry. It is not the appset's job to retry failed syncs
							newAppStatus.Message = "Application resource became Progressing, updating status from Pending to Progressing"
						}
					} else if isApplicationWithError(app) {
						// Validate if the application has errors preventing it to be reconciled and perform syncs
						// If it does, we move it to progressing.
						newAppStatus.LastTransitionTime = &now
						newAppStatus.Status = argov1alpha1.ProgressiveSyncProgressing
						newAppStatus.Message = "Application resource has error and cannot sync, updating status to Progressing"
					}
				}
			}

			if currentAppStatus.Status == argov1alpha1.ProgressiveSyncProgressing {
				// If the status has reached progressing, we know a sync has been triggered. No matter the result of that operation,
				// we want an the app to reach the Healthy state for the current revision.
				if appHealthStatus == health.HealthStatusHealthy && appSyncStatus == argov1alpha1.SyncStatusCodeSynced {
					newAppStatus.LastTransitionTime = &now
					newAppStatus.Status = argov1alpha1.ProgressiveSyncHealthy
					newAppStatus.Message = "Application resource became Healthy, updating status from Progressing to Healthy"
				}
			}
		}

		if newAppStatus.LastTransitionTime == &now {
			statusLogCtx.WithFields(log.Fields{
				"new_status.status":          newAppStatus.Status,
				"new_status.message":         newAppStatus.Message,
				"new_status.step":            newAppStatus.Step,
				"new_status.targetRevisions": strings.Join(newAppStatus.TargetRevisions, ","),
			}).Info("Progressive sync application changed status")
		}
		appStatuses = append(appStatuses, *newAppStatus)
	}

	err := r.setAppSetApplicationStatus(ctx, logCtx, applicationSet, appStatuses)
	if err != nil {
		return nil, fmt.Errorf("failed to set AppSet application statuses: %w", err)
	}

	return appStatuses, nil
}

// check Applications that are in Waiting status and promote them to Pending if needed
func (r *ApplicationSetReconciler) updateApplicationSetApplicationStatusProgress(ctx context.Context, logCtx *log.Entry, applicationSet *argov1alpha1.ApplicationSet, appsToSync map[string]bool, appStepMap map[string]int) ([]argov1alpha1.ApplicationSetApplicationStatus, error) {
	now := metav1.Now()

	appStatuses := make([]argov1alpha1.ApplicationSetApplicationStatus, 0, len(applicationSet.Status.ApplicationStatus))

	// if we have no RollingUpdate steps, clear out the existing ApplicationStatus entries
	if progressiveSyncsRollingSyncStrategyEnabled(applicationSet) {
		length := len(applicationSet.Spec.Strategy.RollingSync.Steps)

		updateCountMap := make([]int, length)
		totalCountMap := make([]int, length)

		// populate updateCountMap with counts of existing Pending and Progressing Applications
		for _, appStatus := range applicationSet.Status.ApplicationStatus {
			totalCountMap[appStepMap[appStatus.Application]]++

			if appStatus.Status == argov1alpha1.ProgressiveSyncPending || appStatus.Status == argov1alpha1.ProgressiveSyncProgressing {
				updateCountMap[appStepMap[appStatus.Application]]++
			}
		}

		for _, appStatus := range applicationSet.Status.ApplicationStatus {
			statusLogCtx := logCtx.WithFields(log.Fields{
				"app.name":               appStatus.Application,
				"status.status":          appStatus.Status,
				"status.message":         appStatus.Message,
				"status.step":            appStatus.Step,
				"status.targetRevisions": strings.Join(appStatus.TargetRevisions, ","),
			})

			maxUpdateAllowed := true
			maxUpdate := &intstr.IntOrString{}
			if progressiveSyncsRollingSyncStrategyEnabled(applicationSet) {
				maxUpdate = applicationSet.Spec.Strategy.RollingSync.Steps[appStepMap[appStatus.Application]].MaxUpdate
			}

			// by default allow all applications to update if maxUpdate is unset
			if maxUpdate != nil {
				maxUpdateVal, err := intstr.GetScaledValueFromIntOrPercent(maxUpdate, totalCountMap[appStepMap[appStatus.Application]], false)
				if err != nil {
					statusLogCtx.Warnf("AppSet has a invalid maxUpdate value '%+v', ignoring maxUpdate logic for this step: %v", maxUpdate, err)
				}

				// ensure that percentage values greater than 0% always result in at least 1 Application being selected
				if maxUpdate.Type == intstr.String && maxUpdate.StrVal != "0%" && maxUpdateVal < 1 {
					maxUpdateVal = 1
				}

				if updateCountMap[appStepMap[appStatus.Application]] >= maxUpdateVal {
					maxUpdateAllowed = false
					statusLogCtx.Infof("Application is not allowed to update yet, %v/%v Applications already updating in step %v", updateCountMap[appStepMap[appStatus.Application]], maxUpdateVal, getAppStep(appStatus.Application, appStepMap))
				}
			}

			if appStatus.Status == argov1alpha1.ProgressiveSyncWaiting && appsToSync[appStatus.Application] && maxUpdateAllowed {
				appStatus.LastTransitionTime = &now
				appStatus.Status = argov1alpha1.ProgressiveSyncPending
				appStatus.Message = "Application moved to Pending status, watching for the Application resource to start Progressing"

				statusLogCtx.WithFields(log.Fields{
					"new_status.status":          appStatus.Status,
					"new_status.message":         appStatus.Message,
					"new_status.step":            appStatus.Step,
					"new_status.targetRevisions": strings.Join(appStatus.TargetRevisions, ","),
				}).Info("Progressive sync application changed status")

				updateCountMap[appStepMap[appStatus.Application]]++
			}

			appStatuses = append(appStatuses, appStatus)
		}
	}

	err := r.setAppSetApplicationStatus(ctx, logCtx, applicationSet, appStatuses)
	if err != nil {
		return nil, fmt.Errorf("failed to set AppSet app status: %w", err)
	}

	return appStatuses, nil
}

func (r *ApplicationSetReconciler) updateApplicationSetApplicationStatusConditions(ctx context.Context, applicationSet *argov1alpha1.ApplicationSet) []argov1alpha1.ApplicationSetCondition {
	if !isRollingSyncStrategy(applicationSet) {
		return applicationSet.Status.Conditions
	}

	completedWaves := map[string]bool{}
	for _, appStatus := range applicationSet.Status.ApplicationStatus {
		if v, ok := completedWaves[appStatus.Step]; !ok {
			completedWaves[appStatus.Step] = appStatus.Status == argov1alpha1.ProgressiveSyncHealthy
		} else {
			completedWaves[appStatus.Step] = v && appStatus.Status == argov1alpha1.ProgressiveSyncHealthy
		}
	}

	isProgressing := false
	progressingStep := ""
	for i := range applicationSet.Spec.Strategy.RollingSync.Steps {
		step := strconv.Itoa(i + 1)
		isCompleted, ok := completedWaves[step]
		if !ok {
			// Step has no applications, so it is completed
			continue
		}
		if !isCompleted {
			isProgressing = true
			progressingStep = step
			break
		}
	}

	if isProgressing {
		_ = r.setApplicationSetStatusCondition(ctx,
			applicationSet,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionRolloutProgressing,
				Message: "ApplicationSet is performing rollout of step " + progressingStep,
				Reason:  argov1alpha1.ApplicationSetReasonApplicationSetModified,
				Status:  argov1alpha1.ApplicationSetConditionStatusTrue,
			}, true,
		)
	} else {
		_ = r.setApplicationSetStatusCondition(ctx,
			applicationSet,
			argov1alpha1.ApplicationSetCondition{
				Type:    argov1alpha1.ApplicationSetConditionRolloutProgressing,
				Message: "ApplicationSet Rollout has completed",
				Reason:  argov1alpha1.ApplicationSetReasonApplicationSetRolloutComplete,
				Status:  argov1alpha1.ApplicationSetConditionStatusFalse,
			}, true,
		)
	}
	return applicationSet.Status.Conditions
}

func findApplicationStatusIndex(appStatuses []argov1alpha1.ApplicationSetApplicationStatus, application string) int {
	for i := range appStatuses {
		if appStatuses[i].Application == application {
			return i
		}
	}
	return -1
}

// migrateStatus run migrations on the status subresource of ApplicationSet early during the run of ApplicationSetReconciler.Reconcile
// this handles any defaulting of values - which would otherwise cause the references to r.Client.Status().Update to fail given missing required fields.
func (r *ApplicationSetReconciler) migrateStatus(ctx context.Context, appset *argov1alpha1.ApplicationSet) error {
	update := false
	if statusList := appset.Status.ApplicationStatus; statusList != nil {
		for idx := range statusList {
			if statusList[idx].TargetRevisions == nil {
				statusList[idx].TargetRevisions = []string{}
				update = true
			}
		}
	}

	if update {
		// DefaultRetry will retry 5 times with a backoff factor of 1, jitter of 0.1 and a duration of 10ms
		err := retry.RetryOnConflict(retry.DefaultRetry, func() error {
			namespacedName := types.NamespacedName{Namespace: appset.Namespace, Name: appset.Name}
			updatedAppset := &argov1alpha1.ApplicationSet{}
			if err := r.Get(ctx, namespacedName, updatedAppset); err != nil {
				if client.IgnoreNotFound(err) != nil {
					return nil
				}
				return fmt.Errorf("error fetching updated application set: %w", err)
			}

			updatedAppset.Status.ApplicationStatus = appset.Status.ApplicationStatus

			// Update the newly fetched object with new set of ApplicationStatus
			err := r.Client.Status().Update(ctx, updatedAppset)
			if err != nil {
				return err
			}
			updatedAppset.DeepCopyInto(appset)
			return nil
		})
		if err != nil && !apierrors.IsNotFound(err) {
			return fmt.Errorf("unable to set application set condition: %w", err)
		}
	}
	return nil
}

func (r *ApplicationSetReconciler) updateResourcesStatus(ctx context.Context, logCtx *log.Entry, appset *argov1alpha1.ApplicationSet, apps []argov1alpha1.Application) error {
	statusMap := status.GetResourceStatusMap(appset)
	statusMap = status.BuildResourceStatus(statusMap, apps)

	statuses := []argov1alpha1.ResourceStatus{}
	for _, status := range statusMap {
		statuses = append(statuses, status)
	}
	sort.Slice(statuses, func(i, j int) bool {
		return statuses[i].Name < statuses[j].Name
	})
	resourcesCount := int64(len(statuses))
	if r.MaxResourcesStatusCount > 0 && len(statuses) > r.MaxResourcesStatusCount {
		logCtx.Warnf("Truncating ApplicationSet %s resource status from %d to max allowed %d entries", appset.Name, len(statuses), r.MaxResourcesStatusCount)
		statuses = statuses[:r.MaxResourcesStatusCount]
	}
	appset.Status.Resources = statuses
	appset.Status.ResourcesCount = resourcesCount
	// DefaultRetry will retry 5 times with a backoff factor of 1, jitter of 0.1 and a duration of 10ms
	err := retry.RetryOnConflict(retry.DefaultRetry, func() error {
		namespacedName := types.NamespacedName{Namespace: appset.Namespace, Name: appset.Name}
		updatedAppset := &argov1alpha1.ApplicationSet{}
		if err := r.Get(ctx, namespacedName, updatedAppset); err != nil {
			if client.IgnoreNotFound(err) != nil {
				return nil
			}
			return fmt.Errorf("error fetching updated application set: %w", err)
		}

		updatedAppset.Status.Resources = appset.Status.Resources
		updatedAppset.Status.ResourcesCount = resourcesCount

		// Update the newly fetched object with new status resources
		err := r.Client.Status().Update(ctx, updatedAppset)
		if err != nil {
			return err
		}
		updatedAppset.DeepCopyInto(appset)
		return nil
	})
	if err != nil {
		logCtx.Errorf("unable to set application set status: %v", err)
		return fmt.Errorf("unable to set application set status: %w", err)
	}
	return nil
}

// setAppSetApplicationStatus updates the ApplicationSet's status field
// with any new/changed Application statuses.
func (r *ApplicationSetReconciler) setAppSetApplicationStatus(ctx context.Context, logCtx *log.Entry, applicationSet *argov1alpha1.ApplicationSet, applicationStatuses []argov1alpha1.ApplicationSetApplicationStatus) error {
	needToUpdateStatus := false

	if len(applicationStatuses) != len(applicationSet.Status.ApplicationStatus) {
		logCtx.WithFields(log.Fields{
			"current_count":  len(applicationSet.Status.ApplicationStatus),
			"expected_count": len(applicationStatuses),
		}).Debug("application status count changed")
		needToUpdateStatus = true
	} else {
		for i := range applicationStatuses {
			appStatus := applicationStatuses[i]
			idx := findApplicationStatusIndex(applicationSet.Status.ApplicationStatus, appStatus.Application)
			if idx == -1 {
				logCtx.WithFields(log.Fields{"application": appStatus.Application}).Debug("application not found in current status")
				needToUpdateStatus = true
				break
			}
			currentStatus := applicationSet.Status.ApplicationStatus[idx]
			statusChanged := currentStatus.Status != appStatus.Status
			stepChanged := currentStatus.Step != appStatus.Step
			messageChanged := currentStatus.Message != appStatus.Message

			if statusChanged || stepChanged || messageChanged {
				if statusChanged {
					logCtx.WithFields(log.Fields{"application": appStatus.Application, "previous_status": currentStatus.Status, "new_status": appStatus.Status}).
						Debug("application status changed")
				}
				if stepChanged {
					logCtx.WithFields(log.Fields{"application": appStatus.Application, "previous_step": currentStatus.Step, "new_step": appStatus.Step}).
						Debug("application step changed")
				}
				if messageChanged {
					logCtx.WithFields(log.Fields{"application": appStatus.Application}).Debug("application message changed")
				}
				needToUpdateStatus = true
				break
			}
		}
	}

	if needToUpdateStatus {
		// sort to make sure the array is always in the same order
		applicationSet.Status.ApplicationStatus = make([]argov1alpha1.ApplicationSetApplicationStatus, len(applicationStatuses))
		copy(applicationSet.Status.ApplicationStatus, applicationStatuses)
		sort.Slice(applicationSet.Status.ApplicationStatus, func(i, j int) bool {
			return applicationSet.Status.ApplicationStatus[i].Application < applicationSet.Status.ApplicationStatus[j].Application
		})

		// DefaultRetry will retry 5 times with a backoff factor of 1, jitter of 0.1 and a duration of 10ms
		err := retry.RetryOnConflict(retry.DefaultRetry, func() error {
			updatedAppset := &argov1alpha1.ApplicationSet{}
			if err := r.Get(ctx, types.NamespacedName{Namespace: applicationSet.Namespace, Name: applicationSet.Name}, updatedAppset); err != nil {
				if client.IgnoreNotFound(err) != nil {
					return nil
				}
				return fmt.Errorf("error fetching updated application set: %w", err)
			}

			updatedAppset.Status.ApplicationStatus = applicationSet.Status.ApplicationStatus

			// Update the newly fetched object with new set of ApplicationStatus
			err := r.Client.Status().Update(ctx, updatedAppset)
			if err != nil {
				return err
			}
			updatedAppset.DeepCopyInto(applicationSet)
			return nil
		})
		if err != nil {
			logCtx.Errorf("unable to set application set status: %v", err)
			return fmt.Errorf("unable to set application set status: %w", err)
		}
	}

	return nil
}

func (r *ApplicationSetReconciler) syncDesiredApplications(logCtx *log.Entry, applicationSet *argov1alpha1.ApplicationSet, appsToSync map[string]bool, desiredApplications []argov1alpha1.Application) []argov1alpha1.Application {
	rolloutApps := []argov1alpha1.Application{}
	for i := range desiredApplications {
		pruneEnabled := false

		// ensure that Applications generated with RollingSync do not have an automated sync policy, since the AppSet controller will handle triggering the sync operation instead
		if desiredApplications[i].Spec.SyncPolicy != nil && desiredApplications[i].Spec.SyncPolicy.IsAutomatedSyncEnabled() {
			pruneEnabled = desiredApplications[i].Spec.SyncPolicy.Automated.Prune
			desiredApplications[i].Spec.SyncPolicy.Automated.Enabled = ptr.To(false)
		}

		appSetStatusPending := false
		idx := findApplicationStatusIndex(applicationSet.Status.ApplicationStatus, desiredApplications[i].Name)
		if idx > -1 && applicationSet.Status.ApplicationStatus[idx].Status == argov1alpha1.ProgressiveSyncPending {
			// only trigger a sync for Applications that are in Pending status, since this is governed by maxUpdate
			appSetStatusPending = true
		}

		// check appsToSync to determine which Applications are ready to be updated and which should be skipped
		if appsToSync[desiredApplications[i].Name] && appSetStatusPending {
			logCtx.Infof("triggering sync for application: %v, prune enabled: %v", desiredApplications[i].Name, pruneEnabled)
			desiredApplications[i] = syncApplication(desiredApplications[i], pruneEnabled)
		}

		rolloutApps = append(rolloutApps, desiredApplications[i])
	}
	return rolloutApps
}

// used by the RollingSync Progressive Sync strategy to trigger a sync of a particular Application resource
func syncApplication(application argov1alpha1.Application, prune bool) argov1alpha1.Application {
	operation := argov1alpha1.Operation{
		InitiatedBy: argov1alpha1.OperationInitiator{
			Username:  "applicationset-controller",
			Automated: true,
		},
		Info: []*argov1alpha1.Info{
			{
				Name:  "Reason",
				Value: "ApplicationSet RollingSync triggered a sync of this Application resource",
			},
		},
		Sync: &argov1alpha1.SyncOperation{},
		// Set a retry limit of 5, aligning with the default in Argo CD's appcontroller auto-sync behavior.
		// This provides consistency for retry behavior across controllers.
		// See: https://github.com/argoproj/argo-cd/blob/af9ebac0bb35dc16eb034c1cefaf7c92d1029927/controller/appcontroller.go#L2126
		Retry: argov1alpha1.RetryStrategy{Limit: 5},
	}

	if application.Spec.SyncPolicy != nil {
		if application.Spec.SyncPolicy.Retry != nil {
			operation.Retry = *application.Spec.SyncPolicy.Retry
		}
		if application.Spec.SyncPolicy.SyncOptions != nil {
			operation.Sync.SyncOptions = application.Spec.SyncPolicy.SyncOptions
		}
		operation.Sync.Prune = prune
	}
	application.Operation = &operation

	return application
}

func getApplicationOwnsHandler(enableProgressiveSyncs bool) predicate.Funcs {
	return predicate.Funcs{
		CreateFunc: func(e event.CreateEvent) bool {
			// if we are the owner and there is a create event, we most likely created it and do not need to
			// re-reconcile
			if log.IsLevelEnabled(log.DebugLevel) {
				logFields := log.Fields{"app": ""}
				app, isApp := e.Object.(*argov1alpha1.Application)
				if isApp {
					logFields = applog.GetAppLogFields(app)
				}
				log.WithFields(logFields).Debugln("received create event from owning an application")
			}
			return false
		},
		DeleteFunc: func(e event.DeleteEvent) bool {
			if log.IsLevelEnabled(log.DebugLevel) {
				logFields := log.Fields{"app": ""}
				app, isApp := e.Object.(*argov1alpha1.Application)
				if isApp {
					logFields = applog.GetAppLogFields(app)
				}
				log.WithFields(logFields).Debugln("received delete event from owning an application")
			}
			return true
		},
		UpdateFunc: func(e event.UpdateEvent) bool {
			appOld, isApp := e.ObjectOld.(*argov1alpha1.Application)
			if !isApp {
				return false
			}
			logCtx := log.WithFields(applog.GetAppLogFields(appOld))
			logCtx.Debugln("received update event from owning an application")
			appNew, isApp := e.ObjectNew.(*argov1alpha1.Application)
			if !isApp {
				return false
			}
			requeue := shouldRequeueForApplication(appOld, appNew, enableProgressiveSyncs)
			logCtx.WithField("requeue", requeue).Debugf("requeue caused by application %s", appNew.Name)
			return requeue
		},
		GenericFunc: func(e event.GenericEvent) bool {
			if log.IsLevelEnabled(log.DebugLevel) {
				logFields := log.Fields{}
				app, isApp := e.Object.(*argov1alpha1.Application)
				if isApp {
					logFields = applog.GetAppLogFields(app)
				}
				log.WithFields(logFields).Debugln("received generic event from owning an application")
			}
			return true
		},
	}
}

// shouldRequeueForApplication determines when we want to requeue an ApplicationSet for reconciling based on an owned
// application change
// The applicationset controller owns a subset of the Application CR.
// We do not need to re-reconcile if parts of the application change outside the applicationset's control.
// An example being, Application.ApplicationStatus.ReconciledAt which gets updated by the application controller.
// Additionally, Application.ObjectMeta.ResourceVersion and Application.ObjectMeta.Generation which are set by K8s.
func shouldRequeueForApplication(appOld *argov1alpha1.Application, appNew *argov1alpha1.Application, enableProgressiveSyncs bool) bool {
	if appOld == nil || appNew == nil {
		return false
	}

	// the applicationset controller owns the application spec, labels, annotations, and finalizers on the applications
	// reflect.DeepEqual considers nil slices/maps not equal to empty slices/maps
	// https://pkg.go.dev/reflect#DeepEqual
	// ApplicationDestination has an unexported field so we can just use the == for comparison
	if !cmp.Equal(appOld.Spec, appNew.Spec, cmpopts.EquateEmpty(), cmpopts.EquateComparable(argov1alpha1.ApplicationDestination{})) ||
		!cmp.Equal(appOld.GetAnnotations(), appNew.GetAnnotations(), cmpopts.EquateEmpty()) ||
		!cmp.Equal(appOld.GetLabels(), appNew.GetLabels(), cmpopts.EquateEmpty()) ||
		!cmp.Equal(appOld.GetFinalizers(), appNew.GetFinalizers(), cmpopts.EquateEmpty()) {
		return true
	}

	// progressive syncs use the application status for updates. if they differ, requeue to trigger the next progression
	if enableProgressiveSyncs {
		if appOld.Status.Health.Status != appNew.Status.Health.Status || appOld.Status.Sync.Status != appNew.Status.Sync.Status {
			return true
		}

		if appOld.Status.OperationState != nil && appNew.Status.OperationState != nil {
			if appOld.Status.OperationState.Phase != appNew.Status.OperationState.Phase ||
				appOld.Status.OperationState.StartedAt != appNew.Status.OperationState.StartedAt {
				return true
			}
		}
	}

	return false
}

func getApplicationSetOwnsHandler(enableProgressiveSyncs bool) predicate.Funcs {
	return predicate.Funcs{
		CreateFunc: func(e event.CreateEvent) bool {
			appSet, isApp := e.Object.(*argov1alpha1.ApplicationSet)
			if !isApp {
				return false
			}
			log.WithField("applicationset", appSet.QualifiedName()).Debugln("received create event")
			// Always queue a new applicationset
			return true
		},
		DeleteFunc: func(e event.DeleteEvent) bool {
			appSet, isApp := e.Object.(*argov1alpha1.ApplicationSet)
			if !isApp {
				return false
			}
			log.WithField("applicationset", appSet.QualifiedName()).Debugln("received delete event")
			// Always queue for the deletion of an applicationset
			return true
		},
		UpdateFunc: func(e event.UpdateEvent) bool {
			appSetOld, isAppSet := e.ObjectOld.(*argov1alpha1.ApplicationSet)
			if !isAppSet {
				return false
			}
			appSetNew, isAppSet := e.ObjectNew.(*argov1alpha1.ApplicationSet)
			if !isAppSet {
				return false
			}
			requeue := shouldRequeueForApplicationSet(appSetOld, appSetNew, enableProgressiveSyncs)
			log.WithField("applicationset", appSetNew.QualifiedName()).
				WithField("requeue", requeue).Debugln("received update event")
			return requeue
		},
		GenericFunc: func(e event.GenericEvent) bool {
			appSet, isApp := e.Object.(*argov1alpha1.ApplicationSet)
			if !isApp {
				return false
			}
			log.WithField("applicationset", appSet.QualifiedName()).Debugln("received generic event")
			// Always queue for the generic of an applicationset
			return true
		},
	}
}

// shouldRequeueForApplicationSet determines when we need to requeue an applicationset
func shouldRequeueForApplicationSet(appSetOld, appSetNew *argov1alpha1.ApplicationSet, enableProgressiveSyncs bool) bool {
	if appSetOld == nil || appSetNew == nil {
		return false
	}

	// Requeue if any ApplicationStatus.Status changed for Progressive sync strategy
	if enableProgressiveSyncs {
		if !cmp.Equal(appSetOld.Status.ApplicationStatus, appSetNew.Status.ApplicationStatus, cmpopts.EquateEmpty()) {
			return true
		}
	}

	// only compare the applicationset spec, annotations, labels and finalizers, deletionTimestamp, specifically avoiding
	// the status field. status is owned by the applicationset controller,
	// and we do not need to requeue when it does bookkeeping
	// NB: the ApplicationDestination comes from the ApplicationSpec being embedded
	// in the ApplicationSetTemplate from the generators
	if !cmp.Equal(appSetOld.Spec, appSetNew.Spec, cmpopts.EquateEmpty(), cmpopts.EquateComparable(argov1alpha1.ApplicationDestination{})) ||
		!cmp.Equal(appSetOld.GetLabels(), appSetNew.GetLabels(), cmpopts.EquateEmpty()) ||
		!cmp.Equal(appSetOld.GetFinalizers(), appSetNew.GetFinalizers(), cmpopts.EquateEmpty()) ||
		!cmp.Equal(appSetOld.DeletionTimestamp, appSetNew.DeletionTimestamp, cmpopts.EquateEmpty()) {
		return true
	}

	// Requeue only when the refresh annotation is newly added to the ApplicationSet.
	// Changes to other annotations made simultaneously might be missed, but such cases are rare.
	if !cmp.Equal(appSetOld.GetAnnotations(), appSetNew.GetAnnotations(), cmpopts.EquateEmpty()) {
		_, oldHasRefreshAnnotation := appSetOld.Annotations[common.AnnotationApplicationSetRefresh]
		_, newHasRefreshAnnotation := appSetNew.Annotations[common.AnnotationApplicationSetRefresh]

		if oldHasRefreshAnnotation && !newHasRefreshAnnotation {
			return false
		}
		return true
	}

	return false
}

var _ handler.EventHandler = &clusterSecretEventHandler{}
